DE3411015A1 - Method and device for the failsafe representation of a mimic diagram on a screen - Google Patents

Abstract

A method for the failsafe representation of a mimic diagram on a data display device (M) is specified, in which the image data supplied to the data display device are continuously checked by the fact that a test code is formed by data reduction from the image data stream and this code is compared with a reference code previously stored and characteristic of the mimic diagram to be displayed. The reference code is formed by modulo-2 addition from a basic code representing the static picture elements and the change codes corresponding to the individual mimic diagram changes. Provision of the reference code saves a second separate image data channel and a second feedback-type shift register for data reduction in devices for carrying out the method according to the invention. When a colour monitor is used as a data display device, the latter applies to each of the three primary colours. <IMAGE>

Description

Procedure and device for signaling safe

Screen display of a message picture The invention relates to a Method according to the preamble of claim 1 and one for implementation this procedure suitable facility.

In railway safety systems such as signal boxes or remote control centers it is necessary to provide the operator with a graphical replica of each of the controls to be controlled System and the current status of the individual control and monitoring elements to be displayed safely in terms of signal technology as a so-called message image. This is done with With the help of a control table or a control board, on which the message screen appears as a mosaic of illuminated standardized ones, some of which are equipped with control elements Table fields is reproduced.

Recently, data display devices, mostly Color monitors used to display the message picture.

Especially in signal boxes with large, unclear areas or in remote control centers data display devices can be used as so-called station magnifiers Use it advantageously to display partial areas of the message screen.

The message image shown on a data display device is considered signaling safe if, as described in DE-AS 24 14 247, for example, any image information consists of two separately compiled complementary pieces of information and it immediately can be seen when two complementary pieces of information do not match, or if a control that changes with a frequency that is easily perceptible to the human eye of the data display device takes place via two separate screen control units and therefore a mismatch of those supplied by the screen control units Image data leads to a noticeable blinking of the corresponding picture element.

The signaling security of a representation on such a type controlled visual display device is only guaranteed if the visual display device is constantly monitored by an operator. If the data display remains for a long time unobserved, the probability is that during this time in both Control units the same error occurs, no longer arbitrarily small. Such a However, if it did not result in a nonsensical display, there would be no double error noticed.

The object of the invention is to provide a representation that is safe in terms of signaling of a message image on a data display device without the involvement of a human to enable little effort.

This task is carried out in the characterizing part of the claim 1 specified process steps solved.

The formation of a test code through data reduction is already here in the older German patent application File number P 33 24 313.1 mentioned. However, the verification code obtained is not used in this older application with a predefined comparison code, but with a second verification code compared that from the image data of a second screen control channel operating in parallel in the same way as the first verification code is obtained. The formation of a second check code requires a second screen controller as well as a second feedback shift register and is therefore quite complex. The inventive Solution, on the other hand, sees the provision of a special comparison code for every possible message image. The comparison code belonging to a specific message screen is stored by the control computer from a comparison code memory List selected and compared with the verification code.

A storage of comparison codes for all possible message picture variations requires a lot of storage space. The need for storage space grows with the size of the Plant disproportionately. To reduce the storage space required, see a Development of the invention, instead of an individual comparison code for each message picture has a basic code for one containing the static picture elements Message screen and a change code for every possible change to the message screen in advance to save and the individual comparison code by modulo-2 addition of all Establish change codes to the basic code. The latter is e.g. with cyclic binary codes possible, which are formed with the help of the same generator polynomial.

Various devices for performing the invention Process are specified in claims 3 to 6. This makes use of the 3 the storage of comparison codes for all Message screen variations advance, while claims 4, 5 and 6 describe devices in which the Comparison code formed from a basic code and one or more modification codes will. While claim 4 specifies a discrete circuit for this purpose, describes Claim 5 a solution in which the formation of the comparison code and the comparison is carried out with the help of the control computer. Claim 6 relates to a device for carrying out the method according to the invention together with color monitors.

Based on three figures, the method according to the invention and two different exemplary embodiments of one for carrying out the method suitable facility must be described in detail.

In Figure 1, a data display device M is shown, which is controlled by a screen control unit BA is controlled. For this purpose it has an image data input DB and a control input ST for the horizontal and vertical synchronization pulses required for beam deflection. If the data display device is a color monitor, it has three separate image data inputs for the primary colors red, green and blue. The screen control unit converts the from a signal-technically secure control computer R for displaying individual picture elements output code words into assigned image data sets and stores them in a Refresh memory. From there they are entered into a shift register byte by byte and serially at the speed required for flicker-free image display Clock output on the data display device. The signaling safe Control computer R can, for example, consist of a double microcomputer system whose computer R1, R2 through mutual exchange and subsequent comparison of their processing results monitor each other for proper function.

The image data that the data display device receives via its image data input is also fed serially to a feedback shift register RS. In this shift register, data is reduced by linking these data with a cyclic polynomial. After passing through a certain amount of data, e.g. the Data for a complete picture is provided at the parallel output of the feedback shift register pending data word as a test code to an input of a comparator that is safe in terms of signaling V supplied and compared with a comparison code that is stored in a with the control computer R connected comparison code memory VS1 is kept ready. The comparison code is to be displayed for all possible before commissioning the data display device Eldebildvariationen created and corresponds with error-free function of the screen control device the verification code obtained through data reduction. If the comparator shows a deviation between the test code and the comparison code, it outputs an error message via a line L. which draws the operator's attention to the incorrect display and, if necessary, Blocks operator actions with responsibility for safety until the error has been rectified.

In Figure 2 is an embodiment of a device for implementation of the method according to the invention, which is suitable for use in larger Plants of the Railway signaling technology is suitable. As with such matters the number of possible message screen variations is very large, instead of one comparison code memory VS1 containing all possible message picture variations in Fig. 1 only uses a low capacity comparison code memory VS2 in which only the current comparison code is stored. This is constant from a basic code and a number corresponding to the ongoing changes to the message screen Change codes formed by modulo-2 addition in a modulo-2 adder A. Included are both the basic code and all change codes by one and the same generator polynomial formed, cyclic binary codes, such as those in the book "Error Correcting Codes" by W.Peterson, published by John Wi ley & Sons, Inc.

New York, London are described. The basic code that corresponds to the comparison code for a basic picture in which all the displayed picture elements in a fixed Basic state are shown corresponds, is stored in a basic code memory GS. All possible change codes which are the comparison codes for all possible changes of the message picture compared to the basic picture are in a change code memory AS filed. Although their number is high, it is essential for a larger system less than the number of comparison codes that would have to be stored if A separate comparison code is always kept ready for each possible reporting image variation would have to be.

The comparison code develops in a device according to FIG together with the message screen: When the data display device is put into operation, initially appears the basic picture, e.g. the track diagram of an interlocking system, in which all turnouts are in the legal position and all signals are red demonstrate. In the comparison code memory the basic code is entered. If operator actions are carried out, the chooses Control computer for every operator action that causes a change in a picture element (e.g. changing a point from the right to the left) the corresponding change code for the relevant turnout in the change code memory. This is in the modulo-2 adder linked to the basic code supplied by the basic code memory and results in the comparison code, which is buffered in the comparison code memory and fed to the comparator will.

The next time a picture element is changed, the associated Change code no longer the basic code, but the cached comparison code, instead of the basic code via a gate circuit controlled by the control computer T enters the modulo-2 adder, modulo-2 added. It results in a different one Comparison code.

If a change to a picture element is to be reversed, a further modulo-2 addition of the change code is sufficient for this. A special Change code for undoing image element changes is therefore no longer necessary.

FIG. 3 shows an exemplary embodiment of a device for implementation of the method according to the invention, in which the modulo-2 addition, the intermediate storage the comparison code and the comparison is carried out in the control computer. In order to the comparison is signal-technically reliable, it must be from both sub-computers R1 and R2 be carried out in parallel. By tripling the screen control unit BA1 ... 3 and the feedback shift register RS1 ... 3 is indicated here that these parts are designed in triplicate if a color monitor is used as a data display device is used. The control computer and memory, on the other hand, do not need to be tripled, but rather only to be adapted in their capacities to the increased amount of data.

Claims (6)

Method for signal technology-safe representation one consisting of several picture elements consisting of a large number of predetermined picture elements Message image on a data display device, in which from a signal-technically secure Control computer supplied, individual picture elements corresponding code words in a Screen control unit converted into image data that can be processed by the data display device, buffered and fed to the data display device for display on the screen will be given that the correctness is checked of the message image from the image data fed to the data display device () by data reduction a check code is formed and assigned to the respective message image to be displayed, in a comparison code memory (VS1, VS2) held ready comparison code compared and that an error display occurs if the test code and comparison code are different from each other differ. 2. The method according to claim 1, characterized in that the comparison code from a permanently stored basic code assigned to a basic message screen and several change codes, which correspond to the individual, compared to the basic Message screen existing changes to the message screen to be displayed are assigned by modulo-2 addition is produced. 3. Device for performing the method according to claim 1, characterized characterized in that the output of the screen control unit (BA) with the serial Input of a feedback shift register (RS) is connected that a signaling Safe comparator (V) is provided, from which a first input to the parallel output of the feedback shift register and a second input to the output of the Comparison code memory (VSl, VS2) is connected and that the comparison code memory is connected to the control computer (R) to control its output. 4. Device for performing the method according to claim 2, characterized characterized in that the output of the screen control unit (BA) with the serial Input of a feedback shift register (RS) is connected that in addition to the Comparison code memory (VS2) and one with its output and the parallel output of the feedback shift register (RS) connected to the signal-technically safe comparator (V) a basic code memory (GS), a change code memory (AS) and a comparison code memory (VS2) upstream modulo-2 adder CA) are present, and that the inputs of the modulo-2 adder (A) for entering stored code words into the modulo-2 adder with the outputs of the basic code memory (GS), the change code memory (AS) and of the comparison code memory (VS2) are connectable. 5. Device for performing the method according to claim 2, characterized characterized in that the output of the screen control unit (BA) with the serial Input of a feedback shift register (RS) is connected, its parallel output is connected to an input of the control computer (R) and that the control computer In addition to the comparison code memory, a basic code memory (GS) and a finding code memory (AS) are assigned. 6. Device according to one of claims 3, 4 or 5, characterized in that that it is designed with three channels for use in conjunction with a color monitor.